JP2017166735A - Precast concrete vibration-proof base plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vibration-proof base plate made of precast concrete having a simple constitution and capable of properly operated for several years or more under severe environment exposed to direct sunlight, and winds and rain, as a vibration-proof stand itself of an air conditioner outdoor unit is installed on a roof of a building.SOLUTION: A precast concrete vibration-proof base plate includes a plurality of first precast concrete plates, a plurality of second precast concrete plates respectively opposed to the plurality of first precast concrete plates, and four vibration absorbers respectively disposed between each of the plurality of first precast concrete plates and each of the plurality of second precast concrete plates. The plurality of first precast concrete plates are installed on the roof of a building structure through fixing means, a plurality of grooves are formed on the plurality of second precast concrete plates, and moving elements capable of being fixed to leg portions of an outdoor unit are movably disposed in the plurality of grooves.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a precast concrete vibration-proof base plate. More specifically, the present invention relates to a precast concrete anti-vibration base plate installed on the roof of a complex building (narrow building) combined with a store, office, or residence that does not have an installation space on the first floor.

  A plurality of cylindrical vibration absorbers with springs are arranged between a pair of upper and lower rectangular bases as a vibration isolation base for outdoor units installed in confined roof spaces such as verandas and terraces. It is used to fix the lower frame to the floor with anchor bolts.

  Here, with reference to FIG. 13, a conventional anti-vibration mount for an air conditioner outdoor unit will be described. This conventional vibration isolation frame (40) includes a lower frame (41) fixed to an outdoor foundation such as the ground or a veranda, an upper frame (42) on which an air conditioner outdoor unit (120) is mounted, and a lower frame ( 41) and a metal spring (43) disposed between the upper frame (42). A horizontal slide (44) for directly mounting the air conditioner outdoor unit (120) is provided on the upper frame (42) of the vibration isolation frame (40).

  FIG. 14 is a schematic view showing a cross section of the lateral slide (44) shown in FIG. 15. The lateral slide (44) includes two plate members (50) each having a concave recess (50a) at the center, and It has a cylindrical roller (51), and the depressions (50a) of the two plate members (50) face each other vertically so that the roller (51) is sandwiched in the space formed by the two depressions (50a). It is configured.

  In the above-described conventional vibration isolator (40) of the air conditioner outdoor unit, the vertical direction (vertical) is achieved by the elastic function of the metal spring (43) disposed between the lower frame (41) and the upper frame (42). Direction) is absorbed. At the same time, due to the inertial force due to the rotational effect of the roller (51) in the lateral slide (44) provided between the upper frame (42) of the vibration isolation frame (40) and the air conditioner outdoor unit (120), Absorbs lateral (horizontal) vibration.

  According to the conventional vibration isolator frame and the horizontal slide of the air conditioner outdoor unit as shown in FIG. 14 and FIG. 15, since the vibration isolator frame and the horizontal slide are separate parts, the air conditioner outdoor unit is mounted on the vibration isolator frame. Even when a slight impact is applied when mounting on a horizontal slide, the horizontal slide body and the rollers in the horizontal slide are easily displaced from their normal positions, which makes it difficult to install the air conditioner outdoor unit. there were.

  Further, since the horizontal slide is exposed to the outside world, water, sand, etc. easily enter the recesses in the horizontal slide. As a result, the roller and the recess are deformed due to wear, rust, etc., and the durability is remarkably lowered, and the horizontal vibration absorption is also lowered.

  Patent document 1 is made in view of such a problem, and the objective is to provide an anti-vibration stand for an air conditioner outdoor unit that is easy to install and has excellent workability. Further, the object of Patent Document 1 is to provide a vibration isolator for an air conditioner outdoor unit that is excellent in durability and does not deteriorate in horizontal vibration absorption.

  In order to solve the above problem, the vibration isolator of the air conditioner outdoor unit disclosed in Patent Document 1 is a vibration isolator that supports the air conditioner outdoor unit including a refrigerant compressor and the like, and is a lower base fixed to the foundation. And an anti-vibration structure comprising a combination of an upper frame on which the outdoor unit is mounted, a metal spring disposed between the lower frame and the upper frame, and a lateral sliding vibration absorbing mechanism connected in series to the metal spring. doing. An air conditioner outdoor unit can be mounted directly on the upper frame by arranging a vibration isolation structure in which a horizontal slide type vibration absorption mechanism is connected in series with a metal spring between the lower frame and the upper frame. The problem related to the installation work can be solved.

Japanese Patent Laid-Open No. 11-193943

  However, the invention described in Patent Document 1 has a complicated structure because the lateral slide type vibration absorbing mechanism is connected in series to a metal spring disposed between the lower frame and the upper frame. In addition, the anti-vibration stand of the air conditioner outdoor unit itself is not intended to be installed on the roof of the building, but is assumed to be installed on the veranda or the ground, and is exposed to direct sunlight, wind and rain. It is not considered to work properly and reliably for several years under.

  The present invention has a simple configuration, and in addition, the anti-vibration stand of the air conditioner outdoor unit itself is installed on the roof of the building, and is precast that operates properly for several years or more in a severe environment exposed to direct sunlight and wind and rain. An object is to provide a vibration-proof base plate made of concrete.

Claim 1 of the present invention comprises a plurality of first precast concrete plates;
A plurality of second precast concrete plates respectively opposed to the plurality of first precast concrete plates;
Four vibration absorbers interposed between each of the plurality of first precast concrete plates and each of the plurality of second precast concrete plates;
With
The plurality of first precast concrete plates are attached to the roof of the building structure via fixing means,
A plurality of grooves are formed in the plurality of second precast concrete plates,
The present invention relates to a precast concrete anti-vibration base plate for an outdoor unit, wherein a movable element that can be fixed to a leg portion of the outdoor unit is provided in the plurality of grooves so as to be movable.

  A second aspect of the present invention relates to the precast concrete vibration-proof base plate according to the first aspect, wherein the building structure is a composite building.

  A third aspect of the present invention relates to the precast concrete vibration-proof base plate according to the first or second aspect, which is formed of a steel material embedded in the plurality of second precast concrete plates.

  According to a fourth aspect of the present invention, in the plurality of grooves, the first and second precast concrete boards have a substantially rectangular parallelepiped shape, and the first and second precast concrete boards have the vibrations at the four corners facing each other. The precast concrete vibration-proof plate as described in any one of Claims 1 thru | or 3 with which an absorber is attached.

  5. The precast concrete vibration-proof plate according to claim 1, wherein the vibration absorber is one or more selected from the group consisting of a coil spring, an air spring, and an elastic body. .

According to the precast concrete vibration isolating plate of claims 1 to 5 of the present invention, a plurality of first precast concrete plates,
A plurality of second precast concrete plates respectively opposed to the plurality of first precast concrete plates;
Four vibration absorbers interposed between each of the plurality of first precast concrete plates and each of the plurality of second precast concrete plates;
With
The plurality of first precast concrete plates are attached to the roof of the building structure via fixing means,
A plurality of grooves are formed in the plurality of second precast concrete plates,
Since the mover of the leg part of the outdoor unit is provided in the plurality of grooves so as to be movable, for example, it can be divided into two blocks of a small area of 90 cm × 180 cm and carried into the rooftop. It is possible to realize a large-area precast concrete vibration-proof plate by connecting two or more blocks after carrying in. Furthermore, since a vibration absorber interposed between the first precast concrete plate and the second precast concrete plate is provided, not only can vibrations in the vertical direction be absorbed, but also the mover at the leg of the outdoor unit is provided with the plurality of grooves. Since it can be detachably and movably mounted on the roof, multiple outdoor units can be efficiently installed in a narrow rooftop space, and it can absorb lateral vibration (with ease of installation and reliability) Absorbing lateral vibrations) can be achieved.

FIG. 1 is an explanatory view showing a state in which a precast concrete vibration-proof plate according to an embodiment of the present invention is installed on the roof of a composite building. FIG. 2 is a perspective view showing a first precast concrete plate, a second precast concrete plate, and a vibration absorber that constitute the precast concrete vibration-proof plate of one embodiment of the present invention. FIG. 3 is a cross-sectional explanatory view of the precast concrete vibration-proof plate of FIG. FIG. 4 is a partial cross-sectional explanatory view showing an alternative example of the vibration absorber applied to the precast concrete vibration-proof plate of FIGS. 2 and 3. FIG. 5 is a partial perspective view showing a groove of a second precast concrete plate constituting the precast concrete vibration-damping plate of FIGS. 1 and 2 and an outdoor unit attached to the second precast concrete plate or a saddle member supporting the outdoor unit. is there. It is explanatory drawing which shows the shape applied as a groove | channel of the 2nd precast concrete board which comprises the precast concrete vibration-proof plate of FIG. It is explanatory drawing which illustrates an example of the formation method of the groove | channel on the 2nd precast concrete board which concerns on this embodiment. It is explanatory drawing which illustrates the other example of the formation method of the groove | channel on the 2nd precast concrete board which concerns on this embodiment. It is explanatory drawing which illustrates the further another example of the formation method of the groove | channel on the 2nd precast concrete board which concerns on this embodiment. It is explanatory drawing which illustrates an example of the method of connecting the 2nd precast concrete board which concerns on this embodiment to a horizontal direction. It is explanatory drawing which illustrates the other example of the method of connecting the 2nd precast concrete boards which concern on this embodiment to a horizontal direction. It is explanatory drawing which illustrates an example of the attachment method of the outdoor unit to the 2nd precast concrete board which concerns on this embodiment. It is a figure which shows an example of the stopper structure employ | adopted as the precast concrete vibration-proof plate of this invention. It is explanatory drawing which shows an example of the outdoor unit vibration isolator which concerns on a prior art. It is explanatory drawing of the vibration absorption part of the horizontal direction of the outdoor unit anti-vibration mechanism of FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

[Embodiment 1]
Referring to FIGS. 1-5, the precast concrete vibration isolating plate (1) of the present embodiment is disposed to face the plurality of first precast concrete plates (2) and the plurality of first precast concrete plates (2), respectively. Vibration absorbers interposed between the plurality of second precast concrete plates (3), each of the plurality of first precast concrete plates (2), and each of the plurality of second precast concrete plates (3) ( S). Referring now to FIG. 13, FIG. 13 is an enlarged view of a partial region (α) of the precast concrete vibration-damping plate of the present invention. The first precast concrete plate (2) and the second precast concrete plate (3) are fixed by a stopper structure using a stopper bolt. That is, the first precast concrete plate (2) is fixed by a bolt penetrating the second precast concrete plate (3) via a round washer and a rubber bush, and as shown in FIG. By providing a gap therebetween, the first precast concrete plate (2) and the second precast concrete plate (3) can be fixed and can absorb horizontal vibration.

Referring to FIG. 2, four metal springs (S) are illustrated as vibration absorbers (S), but the present invention is not limited thereto. It is also possible to employ four or more metal springs (S). In addition, instead of the metal spring (S), a vibration absorber (S) may be a combination of an air spring, an elastic body made of natural or synthetic rubber or elastomeric resin, or a highly foamed material described later. Can do. Referring also to FIG. 2, a recess (R) is provided on the opposing surface of the first precast concrete plate (2) and the second precast concrete plate (3), and the recess (R) is made of metal. The end of the spring (S) is inserted. Thus, since the vibration absorber (S) interposed between the first precast concrete plate (2) and the second precast concrete plate (3) is provided, the vibration in the vertical direction can be absorbed.
Referring to FIG. 4, the first precast is a vibration absorber (S) in which a high foam material (FM) such as high foam urethane is filled in a cover (C) made of an elastic material such as rubber. It is also possible to interpose between the concrete plate (2) and the second precast concrete plate (3) via an end (Ct). As the vibration absorber (S), for example, a high foam material such as highly foamed urethane filled in a cover (C) made of an elastic material such as rubber can be used for a long time on the roof exposed to wind and rain. Obtaining precast concrete anti-vibration plates can be achieved.

  Referring to FIG. 1, a plurality of first precast concrete plates (2) may be attached to the roof of a building structure (B) such as a composite building by anchor bolts (not shown).

  Here, referring to FIGS. 5-9, a plurality of grooves (G) are formed in the second precast concrete plate (3) constituting the precast concrete vibration-proof plate (1) of the present embodiment. As a method of forming the groove (G), as shown in FIG. 7, for example, two grooves (G) are formed parallel to the X-axis direction, and as shown in FIG. 8, parallel to the Y-axis. In this case, a structure in which two grooves (G) are formed, and a structure in which two grooves (G) are formed in parallel to the X axis and the Y axis as shown in FIG. Similarly to the second precast concrete plate (3), the first precast concrete plate (2) has two grooves (G) formed parallel to the X-axis direction, or 2 parallel to the Y-axis. One having two grooves (G) formed therein or two grooves (G) formed in parallel in the X-axis direction and the Y-axis direction can be employed.

  The mover (LM) of the leg (L) of the outdoor unit (M) is detachably and movably fitted into the groove (G). As the mover (LM), in addition to the one shown in FIG. 5, one wheel or a plurality of wheels having an outer shape almost complementary to the shape shown in FIGS. 6 (a), (b) and (c) Any combination of wheels may be employed.

  Next, referring to FIGS. 10 and 11, as a means for connecting two precast concrete vibration isolation plates (1) of the present embodiment in the horizontal direction, a second precast that constitutes one precast concrete vibration isolation plate (1). A protrusion (Conv) extending from the side edge of the concrete plate (3) and a recess (Conc) formed on the side edge of the second precast concrete plate (3) constituting the other precast concrete vibration-proof plate (1) A male-female mechanism consisting of

  Referring to FIG. 12, an example of a mechanism for attaching the outdoor unit (M) to the groove (G) formed in the second precast concrete plate (3) constituting the precast concrete vibration-proof plate (1) of the present embodiment. Illustrated. The attachment mechanism applied to the present embodiment includes a leg portion (L) composed of a vertical portion (Ly) and a horizontal portion (Lx), and a screw portion that passes through the horizontal portion (Lx) and extends into the groove (G). (B) and a moving part (LMw) comprising a wheel part (LMw) having a support part (LMs) fixed to the screw part (B) and an axle (LMx) rotatably supported by the support part (LMs). ) And a nut (N) screwed into the screw (B), the groove (G) and the mover (LM) are provided with a horizontal gap (d1) and a vertical gap (d2). It will be. The horizontal gap (d1) and the vertical gap (d2) are appropriately determined from the mass of the outdoor unit (M), the diameter of the wheel portion (LMw), and the like.

If an earthquake that vibrates in the horizontal direction occurs, the slider (LM) rolls in the groove (G) on the second precast concrete plate (3), and vibration from the roof is directly transmitted to the outdoor unit (M). It will never be done. In other words, even if the rooftop vibrates, the outdoor unit (M) moves the mover (LM) relative to the two precast concrete plates (3) to attenuate the vibration energy in the horizontal direction.

  In the present embodiment, the groove (G) is formed in the second precast concrete plate (3) itself. It is not restricted to this structure, It is also possible to embed and form a plurality of deformed materials such as a U-shaped steel material in the second precast concrete plate (3). Achieves the ability to efficiently install multiple outdoor units in a narrow rooftop space and to absorb lateral vibration (ease of installation, certainty, and absorption of lateral vibration) can do.

  According to the precast concrete vibration-damping plate of claims 1 to 5 of the present invention, a plurality of first precast concrete plates, and a plurality of second precast concrete plates respectively opposed to the plurality of first precast concrete plates, Each of the plurality of first precast concrete plates and four vibration absorbers interposed between each of the plurality of second precast concrete plates, wherein the plurality of first precast concrete plates are constructed. The plurality of second precast concrete plates are attached to the roof of the structure via fixing means, and a plurality of grooves are formed in the plurality of second precast concrete plates, and the outdoor unit can move freely to the plurality of grooves. For example, two or more blocks having a small area of 90 cm × 180 cm are provided. Divided into click can be carried on the roof, it is possible to realize a precast concrete vibration isolating plate having a large area by connecting two blocks after loading. Furthermore, since the vibration absorber interposed between the first precast concrete plate and the second precast concrete plate is provided, not only can the vibration in the vertical direction be absorbed, but the outdoor unit has a movable part of the leg of the outdoor unit. Since the plurality of grooves are movably provided, lateral vibrations can be absorbed.

DESCRIPTION OF SYMBOLS 1 Precast concrete vibration-proof plate 2 1st precast concrete board 3 2nd precast concrete board C Cover Conv Protrusion part Conc Concave part Ct End part FM High foam material G, G2, G3 Groove L Leg part LM Moving element LMs Support part LMw Wheel portion LMx Axle Lx Horizontal portion Ly Vertical portion M, M1, M2, M3, M4 Outdoor unit or housing R Recess S Vibration absorber (metal spring)

Claims (5)

A plurality of first precast concrete boards,
A plurality of second precast concrete plates respectively opposed to the plurality of first precast concrete plates;
Four vibration absorbers interposed between each of the plurality of first precast concrete plates and each of the plurality of second precast concrete plates;
With
The plurality of first precast concrete plates are attached to the roof of the building structure via fixing means,
A plurality of grooves are formed in the plurality of second precast concrete plates,
A precast concrete vibration-proof base plate for an outdoor unit, wherein a movable element that can be fixed to a leg portion of the outdoor unit is detachably and movably provided in the plurality of grooves.   The precast concrete vibration-proof base plate according to claim 1, wherein the building structure is a composite building.   3. The precast concrete vibration-proof base plate according to claim 1, wherein the plurality of grooves are formed of a steel material embedded in the plurality of second precast concrete plates.   The said 1st and 2nd precast concrete board exhibits the shape of a substantially rectangular parallelepiped, and the said vibration absorber is attached to the four corners which the said 1st and 2nd precast concrete board mutually opposes mutually. The precast concrete vibration-proof plate as described in any one of Claims.   The precast concrete vibration-proof plate according to any one of claims 1 to 4, wherein the vibration absorber is one or more selected from the group consisting of a coil spring, an air spring, and an elastic body.